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Learned 3D volumetric recovery of clouds and its uncertainty for climate analysis (2403.05932v1)
Published 9 Mar 2024 in cs.CV and cs.AI
Abstract: Significant uncertainty in climate prediction and cloud physics is tied to observational gaps relating to shallow scattered clouds. Addressing these challenges requires remote sensing of their three-dimensional (3D) heterogeneous volumetric scattering content. This calls for passive scattering computed tomography (CT). We design a learning-based model (ProbCT) to achieve CT of such clouds, based on noisy multi-view spaceborne images. ProbCT infers - for the first time - the posterior probability distribution of the heterogeneous extinction coefficient, per 3D location. This yields arbitrary valuable statistics, e.g., the 3D field of the most probable extinction and its uncertainty. ProbCT uses a neural-field representation, making essentially real-time inference. ProbCT undergoes supervised training by a new labeled multi-class database of physics-based volumetric fields of clouds and their corresponding images. To improve out-of-distribution inference, we incorporate self-supervised learning through differential rendering. We demonstrate the approach in simulations and on real-world data, and indicate the relevance of 3D recovery and uncertainty to precipitation and renewable energy.
- Zelinka, M.D., Myers, T.A., McCoy, D.T., Po-Chedley, S., Caldwell, P.M., Ceppi, P., Klein, S.A., Taylor, K.E.: Causes of higher climate sensitivity in cmip6 models. Geophysical Research Letters 47(1), 2019–085782 (2020) Forster et al. [2021] Forster, P., Storelvmo, T., Armour, K., Collins, W., Dufresne, J.-L., Frame, D., Lunt, D.J., Mauritsen, T., Palmer, M.D., Watanabe, M., , et al.: The Earth’s Energy Budget, Climate Feedbacks, and Climate Sensitivity, pp. 923–1054. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA (2021) Neggers and Siebesma [2013] Neggers, R., Siebesma, A.: Constraining a system of interacting parameterizations through multiple-parameter evaluation: Tracing a compensating error between cloud vertical structure and cloud overlap. Journal of Climate 26(17), 6698–6715 (2013) Bony [2005] Bony, S.: Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models. Geophysical Research Letters 32(20) (2005) Ceppi and Nowack [2021] Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, P., Storelvmo, T., Armour, K., Collins, W., Dufresne, J.-L., Frame, D., Lunt, D.J., Mauritsen, T., Palmer, M.D., Watanabe, M., , et al.: The Earth’s Energy Budget, Climate Feedbacks, and Climate Sensitivity, pp. 923–1054. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA (2021) Neggers and Siebesma [2013] Neggers, R., Siebesma, A.: Constraining a system of interacting parameterizations through multiple-parameter evaluation: Tracing a compensating error between cloud vertical structure and cloud overlap. Journal of Climate 26(17), 6698–6715 (2013) Bony [2005] Bony, S.: Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models. Geophysical Research Letters 32(20) (2005) Ceppi and Nowack [2021] Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Neggers, R., Siebesma, A.: Constraining a system of interacting parameterizations through multiple-parameter evaluation: Tracing a compensating error between cloud vertical structure and cloud overlap. Journal of Climate 26(17), 6698–6715 (2013) Bony [2005] Bony, S.: Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models. Geophysical Research Letters 32(20) (2005) Ceppi and Nowack [2021] Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Bony, S.: Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models. Geophysical Research Letters 32(20) (2005) Ceppi and Nowack [2021] Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. 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[2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Bony, S.: Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models. Geophysical Research Letters 32(20) (2005) Ceppi and Nowack [2021] Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. 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[2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Bony, S.: Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models. Geophysical Research Letters 32(20) (2005) Ceppi and Nowack [2021] Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. 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[2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. 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[2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ceppi, P., Nowack, P.: Observational evidence that cloud feedback amplifies global warming. Proceedings of the National Academy of Sciences 118(30), 2026290118 (2021) Khain and Pinsky [2018] Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
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[2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. 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Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A.P., Pinsky, M.: Physical Processes in Clouds and Cloud Modeling, (2018). Cambridge University Press De Rooy et al. [2013] De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. 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[2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. 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[2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). 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[2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) De Rooy, W.C., Bechtold, P., Fröhlich, K., Hohenegger, C., Jonker, H., Mironov, D., Pier Siebesma, A., Teixeira, J., Yano, J.-I.: Entrainment and detrainment in cumulus convection: An overview. Quarterly Journal of the Royal Meteorological Society 139(670), 1–19 (2013) Gerber [2000] Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. 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John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. 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Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
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[2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Structure of small cumulus clouds. In: Proceedings 13thsuperscript13th13^{\rm{th}}13 start_POSTSUPERSCRIPT roman_th end_POSTSUPERSCRIPT International Conference on Clouds and Precipitation, pp. 105–108 (2000) Grosvenor et al. [2018] Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Grosvenor, D.P., Sourdeval, O., Zuidema, P., Ackerman, A., Alexandrov, M.D., Bennartz, R., Boers, R., Cairns, B., Chiu, J.C., Christensen, M., et al.: Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives. Reviews of Geophysics 56(2), 409–453 (2018) Lu et al. [2023] Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). 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Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lu, X., Mao, F., Rosenfeld, D., Zhu, Y., Zang, L., Pan, Z., Gong, W.: The temperature control of cloud adiabatic fraction and coverage. Geophysical Research Letters 50(22), 2023–105831 (2023) Nakajima and King [1990] Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. 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Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Nakajima, T., King, M.D.: Determination of the optical thickness and effective particle radius of clouds from reflected solar radiation measurements. part i: Theory. Journal of Atmospheric Sciences 47(15), 1878–1893 (1990) Schilling et al. [2019] Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Schilling, K., Schechner, Y.Y., Koren, I.: CloudCT - computed tomography of clouds by a small satellite formation. In: Proceedings IAA Symposium on Small Satellites for Earth Observation (2019) Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eytan, E., Altaratz, O., Koren, I., Aumann, A., Schilling, K., Schechner, Y.Y.: CloudCT 3D volumetric tomography: Considerations for imager preference, comparing visible light, short-wave infrared, and polarized imagers. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 19–26 (2021). SPIE Levis et al. [2020] Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. 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In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B., Loveridge, J.: Multi-view polarimetric scattering cloud tomography and retrieval of droplet size. Remote Sensing 12(17), 2831 (2020) Levis et al. [2015] Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). 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[2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. 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[2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. 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[2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Aides, A., Davis, A.B.: Airborne three-dimensional cloud tomography. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 3379–3387 (2015) Aides et al. [2020] Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. 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John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Aides, A., Levis, A., Holodovsky, V., Schechner, Y.Y., Althausen, D., Vainiger, A.: Distributed sky imaging radiometry and tomography. In: Proc. IEEE International Conference on Computational Photography, pp. 1–12 (2020) Veikherman et al. [2014] Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Veikherman, D., Aides, A., Schechner, Y.Y., Levis, A.: Clouds in the cloud. In: Proceedings Asian Conference on Computer Vision, pp. 659–674 (2014). Springer Tzabari et al. [2021] Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Tzabari, M., Holodovsky, V., Shubi, O., Eshkol, E., Schechner, Y.Y.: Settings for spaceborne 3D scattering tomography of liquid-phase clouds by the CloudCT mission. IEEE Transactions on Geoscience and Remote Sensing (2021) Fielding et al. [2014] Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. 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Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. 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Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. 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Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. 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[2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Fielding, M.D., Chiu, J.C., Hogan, R.J., Feingold, G.: A novel ensemble method for retrieving properties of warm cloud in 3-d using ground-based scanning radar and zenith radiances. Journal of Geophysical Research: Atmospheres 119(18), 10–912 (2014) Sde-Chen et al. [2021] Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Sde-Chen, Y., Schechner, Y.Y., Holodovsky, V., Eytan, E.: 3DeepCT: Learning volumetric scattering tomography of clouds. In: Proceedings IEEE/CVF International Conference on Computer Vision, pp. 5671–5682 (2021) Ronen et al. [2022] Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Ronen, R., Holodovsky, V., Schechner, Y.Y.: Variable imaging projection cloud scattering tomography. IEEE Transactions on Pattern Analysis and Machine Intelligence, 1–12 (2022) Yu et al. [2021] Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Yu, A., Ye, V., Tancik, M., Kanazawa, A.: pixelNeRF: Neural radiance fields from one or few images. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 4578–4587 (2021) Verbin et al. [2022] Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. 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[2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Verbin, D., Hedman, P., Mildenhall, B., Zickler, T., Barron, J.T., Srinivasan, P.P.: Ref-nerf: Structured view-dependent appearance for neural radiance fields. In: 2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 5481–5490 (2022) Liu et al. [2022] Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. 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John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. 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In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). 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[2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. 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Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. 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Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Liu, R., Sun, Y., Zhu, J., Tian, L., Kamilov, U.S.: Recovery of continuous 3d refractive index maps from discrete intensity-only measurements using neural fields. Nature Machine Intelligence 4(9), 781–791 (2022) Kadambi et al. [2023] Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Kadambi, A., Melo, C., Hsieh, C.-J., Srivastava, M., Soatto, S.: Incorporating physics into data-driven computer vision. Nature Machine Intelligence, 1–9 (2023) NASA [2013] NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- NASA: AirMSPI version 5 ellipsoid-projected georegistered radiance product acquired during the NASA PODEX flight campaign January-February 2013. NASA Langley Atmospheric Science Data Center DAAC (2013) Gristey et al. [2020] Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Gristey, J.J., Feingold, G., Glenn, I.B., Schmidt, K.S., Chen, H.: Surface solar irradiance in continental shallow cumulus fields: Observations and large-eddy simulation. Journal of the Atmospheric Sciences 77(3), 1065–1080 (2020) Rosenfeld and Gutman [1994] Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Rosenfeld, D., Gutman, G.: Retrieving microphysical properties near the tops of potential rain clouds by multispectral analysis of avhrr data. Atmospheric Research 34(1-4), 259–283 (1994) Ronen et al. [2021] Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Ronen, R., Schechner, Y.Y., Eytan, E.: 4D cloud scattering tomography. In: Proc. IEEE/CVF International Conference on Computer Vision, pp. 5520–5529 (2021) Eytan et al. [2021] Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Koren, I., Altaratz, O., Pinsky, M., Khain, A.: Revisiting adiabatic fraction estimations in cumulus clouds: high-resolution simulations with a passive tracer. Atmospheric Chemistry and Physics 21(21), 16203–16217 (2021) Eytan et al. [2022] Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. 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Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
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Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Eytan, E., Khain, A., Pinsky, M., Altaratz, O., Shpund, J., Koren, I.: Shallow cumulus properties as captured by adiabatic fraction in high-resolution LES simulations. Journal of the Atmospheric Sciences 79(2), 409–428 (2022) Konwar et al. [2021] Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
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John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Konwar, M., Prabhakaran, T., Khain, A., Pinsky, M.: Cloud microphysical structure analysis based on high-resolution in situ measurements. Journal of the Atmospheric Sciences 78(7), 2265–2285 (2021) Gerber [1996] Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Gerber, H.: Microphysics of marine stratocumulus clouds with two drizzle modes. Journal of Atmospheric Sciences 53(12), 1649–1662 (1996) Siebesma et al. [2003] Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Siebesma, A.P., Bretherton, C.S., Brown, A., Chlond, A., Cuxart, J., Duynkerke, P.G., Jiang, H., Khairoutdinov, M., Lewellen, D., Moeng, C.-H., et al.: A large eddy simulation intercomparison study of shallow cumulus convection. Journal of the Atmospheric Sciences 60(10), 1201–1219 (2003) Forster et al. [2021] Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Forster, L., Davis, A.B., Diner, D.J., Mayer, B.: Toward cloud tomography from space using MISR and MODIS: Locating the “veiled core” in opaque convective clouds. Journal of the Atmospheric Sciences 78(1), 155–166 (2021) Asadi and Littman [2017] Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Asadi, K., Littman, M.L.: An alternative softmax operator for reinforcement learning. International Conference on Machine Learning, 243–252 (2017). PMLR Lin et al. [2017] Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Lin, T.-Y., Dollár, P., Girshick, R., He, K., Hariharan, B., Belongie, S.: Feature pyramid networks for object detection. In: Proceedings IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 2117–2125 (2017) Joyce [2011] Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Joyce, J.M.: Kullback-leibler divergence. In: International Encyclopedia of Statistical Science, pp. 720–722 (2011). Springer Shannon [1948] Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Shannon, C.E.: A mathematical theory of communication. The Bell system technical journal 27(3), 379–423 (1948) Zhang et al. [2017] Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Zhang, Y., Klein, S.A., Fan, J., Chandra, A.S., Kollias, P., Xie, S., Tang, S.: Large-eddy simulation of shallow cumulus over land: A composite case based on arm long-term observations at its southern great plains site. Journal of the Atmospheric Sciences 74(10), 3229–3251 (2017) Heiblum et al. [2019] Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Heiblum, R.H., Pinto, L., Altaratz, O., Dagan, G., Koren, I.: Core and margin in warm convective clouds–part 1: Core types and evolution during a cloud’s lifetime. Atmospheric Chemistry and Physics 19(16), 10717–10738 (2019) Xue and Feingold [2006] Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Xue, H., Feingold, G.: Large-eddy simulations of trade wind cumuli: Investigation of aerosol indirect effects. Journal of the Atmospheric Sciences 63(6), 1605–1622 (2006) Khairoutdinov and Randall [2003] Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Khairoutdinov, M.F., Randall, D.A.: Cloud resolving modeling of the arm summer: Model formulation, results, uncertainties, and sensitivities. Journal of the Atmospheric Sciences 60(4), 607–625 (2003) Khain et al. [2004] Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Khain, A., Pokrovsky, A., Pinsky, M., Seifert, A., Phillips, V.: Simulation of effects of atmospheric aerosols on deep turbulent convective clouds using a spectral microphysics mixed-phase cumulus cloud model. part I: Model description and possible applications. Journal of the Atmospheric Sciences 61(24), 2963–2982 (2004) Levis et al. [2017] Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Levis, A., Schechner, Y.Y., Davis, A.B.: Multiple-scattering microphysics tomography. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 6740–6749 (2017) Chandrasekhar [1960] Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Chandrasekhar, S.: Radiative Transfer, (1960). Courier Corporation [48] Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Levis, A., Loveridge, J., Aides, A.: PySHDOM. 2020. Available Online. https://github.com/aviadlevis/pyshdom Loveridge et al. [2022] Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Loveridge, J., Levis, A., Aides, A., Forster, L., Holodovsky, V.: Atmospheric Tomography with 3D Radiative Transfer (2022) Duffie and Beckman [2013] Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Duffie, J.A., Beckman, W.A.: Solar Engineering of Thermal Processes, (2013). John Wiley & Sons, Chap. 2,5 Xie et al. [2022] Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Xie, Y., Sengupta, M., Habte, A., Andreas, A.: The “fresnel equations” for diffuse radiation on inclined photovoltaic surfaces (FEDIS). Renewable and Sustainable Energy Reviews 161, 112362 (2022) Field [1997] Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Field, H.: Solar cell spectral response measurement errors related to spectral band width and chopped light waveform. Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists, 471–474 (1997) Loeub et al. [2020] Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Loeub, T., Levis, A., Holodovsky, V., Schechner, Y.Y.: Monotonicity prior for cloud tomography. In: Proc. European Conference on Computer Vision, pp. 24–29 (2020). Springer Marshak and Davis [2005] Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Marshak, A., Davis, A.: 3D Radiative Transfer in Cloudy Atmospheres, (2005). Springer Science & Business Media Levis et al. [2021] Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Levis, A., Davis, A.B., Loveridge, J.R., Schechner, Y.Y.: 3d cloud tomography and droplet size retrieval from multi-angle polarimetric imaging of scattered sunlight from above. In: Polarization Science and Remote Sensing X, vol. 11833, pp. 27–41 (2021). SPIE Loveridge et al. [2023] Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Loveridge, J., Levis, A., Di Girolamo, L., Holodovsky, V., Forster, L., Davis, A.B., Schechner, Y.Y.: Retrieving 3D distributions of atmospheric particles using atmospheric tomography with 3D radiative transfer–part 1: Model description and Jacobian calculation. Atmospheric Measurement Techniques 16(7), 1803–1847 (2023) Wehrli [1985] Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985) Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)
- Wehrli, C.: Extraterrestrial solar spectrum, publication no. 615. PMO/WRC, Davos Dorf, Switzerland (1985)